QTREX Expands into Quantum Processor Interface with Single-Build Cryogenic Chip Carrier

Rhea-AI Impact

(Moderate)

Rhea-AI Sentiment

(Positive)

Rhea-AI Summary

QTREX Quantum (Nasdaq: QTEX) announced a key milestone in quantum computing infrastructure, producing a cryogenic chip carrier using its proprietary single-build Additively Manufactured Electronics (AME) process. The design was supplied by a major U.S.-based quantum technology company.

The carrier extends QTREX’s AME platform into the processor-interface layer, integrating chip carrier and interconnect into one monolithic, Kapton-class polyimide architecture optimized for very low temperatures. This approach targets higher routing density, integrated shielding, fewer connector transitions and improved scalability for high-channel-count quantum processors.

AI-generated analysis. Not financial advice.

Positive

Entry of AME platform into processor-interface layer of quantum hardware stack
Cryogenic chip carrier produced using single-build AME with monolithic architecture
Design engagement with one of the world’s largest U.S.-based quantum computing companies
Architecture targets higher routing density and reduced connector-related failure points
Next phase focused on customer-specific cryogenic chip carrier designs

Negative

None.

Key Figures

Resale registration shares: 531,766 Ordinary Shares Resale ordinary shares: 326,739 shares Warrant shares: 205,027 shares +4 more

7 metrics

Resale registration shares 531,766 Ordinary Shares Registered for resale by selling shareholders in recent POS AM filing

Resale ordinary shares 326,739 shares Existing Ordinary Shares registered for resale by selling shareholders

Warrant shares 205,027 shares Ordinary Shares issuable upon exercise of warrants registered for resale

Warrant exercise price $1.60 per share Exercise price for registered warrants held by selling shareholders

Potential warrant proceeds $0.3 million Maximum cash proceeds to company if all warrants exercised

Shares outstanding 52,600,854 Ordinary Shares Outstanding as of June 12, 2026 per prospectus

Quantum.Tech conference dates June 25–26, 2026 Planned presentation of cryogenic chip carrier sample in Boston

Peers on Argus

QTEX showed a move of -8.65% with no peers flagged in momentum scanners, pointin...

QTEX showed a move of -8.65% with no peers flagged in momentum scanners, pointing to a stock-specific reaction rather than a broader Technology/Computer Hardware sector move.

Historical Context

4 past events · Latest: Jun 15 (Positive)

Pattern 4 events

Date	Event	Sentiment	Move	Catalyst
Jun 15	Manufacturing yield milestone	Positive	+70.5%	AME process achieved 97% yield at major U.S. interconnect manufacturer partner.
Jun 09	Government grant award	Positive	+13.5%	Government grant to develop native RF dielectric for superconducting quantum connectivity.
Jun 02	Conference showcase	Positive	-24.7%	Planned showcase of AME-based monolithic connectivity components at Quantum.Tech World 2026.
Jun 01	Fortune 500 purchase order	Positive	+0.3%	Purchase order from Fortune 500 multinational for AME system and related materials.

Pattern Detected

QTEX often shows strong reactions to quantum infrastructure milestones, with mostly positive alignment but occasional sharp divergences on seemingly constructive news.

Regulatory & Risk Context

Short Interest: 18.35%

Short Interest

18.35% of shares outstanding

as of 2026-05-29 Days to cover: 1

Short positioning appears elevated, which can increase volatility and the potential for sharp moves if sentiment or liquidity conditions change.

Market Pulse Summary

This announcement extends QTEX’s AME platform into the processor-interface layer, targeting high-cha...

Analysis

This announcement extends QTEX’s AME platform into the processor-interface layer, targeting high-channel-count quantum systems. Prior news has sometimes triggered large moves above 70%. Investors may watch how this technical milestone converts into design wins amid elevated short positioning.

Key Terms

cryogenic chip carrier, additively manufactured electronics, polyimide, quantum processor

4 terms

cryogenic chip carrier technical

"The Company has successfully produced a cryogenic chip carrier using its proprietary"

A cryogenic chip carrier is a specialized package that holds and connects an electronic or quantum chip while keeping it at extremely low temperatures. Think of it as a tiny insulated stage that provides mechanical support, electrical wiring and thermal control so sensitive components can run reliably in the cold; investors care because this hardware affects product performance, manufacturing yield and the cost and scalability of next‑generation computing and sensing technologies.

additively manufactured electronics technical

"a company focused on advancing Additively Manufactured Electronics (“AME”) for quantum computing"

Additively manufactured electronics are electronic components and circuits created by layer-by-layer printing techniques instead of traditional machining or assembly. Think of building a cake where each layer can contain wiring, sensors or conductive traces so a finished part can combine structure and electronics in one piece. For investors, this can cut production time and part counts, enable custom or lightweight designs, and open new product opportunities or cost savings across manufacturing and supply chains.

polyimide technical

"QTREX’s carrier uses a Kapton-class polyimide architecture adapted for very low-temperature"

Polyimide is a family of high‑performance plastics known for exceptional heat resistance, electrical insulation and mechanical strength, often used where ordinary plastics would melt or break. Think of it as a heat‑proof, flexible fabric for electronics and industrial parts that keeps circuits and components protected under extreme conditions. For investors, polyimide’s importance lies in its role in key supply chains—demand can signal strength in electronics, semiconductor packaging, aerospace and advanced manufacturing markets.

quantum processor technical

"functions around the quantum processor. By enabling these capabilities within a single"

A quantum processor is a type of computer chip that uses quantum bits (qubits) to carry out calculations in ways ordinary chips cannot, allowing it to consider many possibilities at once—like a calculator that can try many answers in parallel. It matters to investors because successful, scalable quantum processors could unlock faster solutions for complex problems (optimization, materials, cryptography), creating new markets, competitive advantages, and long-term value—but they also carry technical and timing risks.

AI-generated analysis. Not financial advice.

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06/18/2026 - 07:30 AM

Based on a design supplied by a major U.S.-based technology company active in quantum computing, the milestone extends QTREX's AME platform into the processor-interface layer, expanding its role within future quantum computing architectures

Nes Ziona, Israel, June 18, 2026 (GLOBE NEWSWIRE) -- QTREX Quantum Ltd. (Nasdaq: QTEX) ("QTREX" or the "Company") a company focused on advancing Additively Manufactured Electronics (“AME”) for quantum computing infrastructure, today announced a major technical and strategic milestone: the Company has successfully produced a cryogenic chip carrier using its proprietary single-build AME process, based on a design supplied by one of the world's largest U.S.-based technology companies developing full-stack quantum computing systems.

The achievement expands QTREX’s role within the quantum hardware stack into the processor-interface layer, demonstrating that the Company’s AME platform can address both signal transport and critical carrier-level functions around the quantum processor. By enabling these capabilities within a single AME architecture, QTREX believes it is opening a new category of quantum computing components and expanding its addressable opportunity across future quantum system architectures.

A cryogenic chip carrier supports the quantum processor and manages signal fan-out between the processor interface and the cryogenic I/O stack. As quantum systems scale, this interface becomes increasingly important. Higher channel counts require denser routing, stronger shielding, lower thermal load, controlled signal integrity and repeatable manufacturing inside highly constrained cryogenic environments.

QTREX’s carrier uses a Kapton-class polyimide architecture adapted for very low-temperature environments. The single-build AME process is designed to integrate the cryogenic chip carrier and interconnect structure into one monolithic architecture, enabling conductive pathways, dielectric structures, shielding features and direct interconnect transitions to be produced together rather than assembled through separate connectors and manual steps. By reducing connectorized transitions, the architecture is intended to lower potential failure points, simplify the signal path and support substantially higher routing density. Because shielding can be engineered directly into the carrier, and because AME enables 3D routing geometries, this approach can open a new integration path for high-channel-count quantum processors that conventional connector-based architectures are not designed to support.

“Following engagement with multiple quantum computing companies and the evaluation of this capability with one of the industry’s leading players, we view this milestone as representing a meaningful expansion of our position within the quantum hardware ecosystem,” said Dagi Ben-Noon, CEO of QTREX. “By enabling the cryogenic chip carrier and interconnect structure to be produced within the same single-build AME architecture, we are expanding our quantum connectivity platform to include processor-interface functions. This capability further strengthens QTREX’s role in addressing one of the fundamental scaling challenges facing the quantum computing industry.”

Following interest from multiple quantum hardware companies and strategic technology customers, the next phase is expected to focus on customer-specific cryogenic chip carrier designs tailored to each processor architecture, chip design and system-level requirement.

QTREX plans to present the chip carrier sample during private meetings in Boston around Quantum.Tech World 2026, taking place on June 25–26, 2026. Industry participants, research institutions and strategic partners interested in viewing the sample or discussing customer-specific processor-interface designs may contact Yoav Rozanovich, Chief Business Officer, at yoavr@q-trex.com or info@q-trex.com to request a meeting.

About QTREX Quantum
QTREX Quantum Ltd. (Nasdaq: QTEX) is a technology company focused on advanced connectivity and electronics manufacturing solutions for next-generation hardware markets. Following its acquisition of the AME platform, the Company is developing high-density, thermally optimized quantum connectivity solutions for dilution cryostats and advancing AME applications for defense, aerospace, missile, space, and other mission-critical environments. The Company also continues to advance its medical technology portfolio, including respiratory support and blood monitoring platforms, while actively working to monetize certain parts of the medical business.

For more information, please visit: www.q-trex.com

Forward-Looking Statement Disclaimer
This press release contains express or implied forward-looking statements pursuant to U.S. Federal securities laws. These forward-looking statements are based on the current expectations of the management of the Company only and are subject to factors and uncertainties that could cause actual results to differ materially from those described in the forward-looking statements. For example, the Company is using forward-looking statements when it discusses the benefits, advantages and capabilities of its AME platform and cryogenic quantum chip carrier; that the achievement expands its role within the quantum hardware stack into the processor-interface layer, demonstrating that its AME platform can address both signal transport and critical carrier-level functions around the quantum processor, that the milestone represents a meaningful expansion of its position within the quantum hardware ecosystem; that this new capability further strengthens its role in addressing one of the fundamental scaling challenges facing the quantum computing industry and that its next phase is expected to focus on customer-specific cryogenic chip carrier designs tailored to each processor architecture, chip design and system-level requirement; potential customer, partner and commercial discussions; and its plans to present the sample in Boston. Except as otherwise required by law, the Company undertakes no obligation to publicly release any revisions to these forward-looking statements. More detailed information about the risks and uncertainties affecting the Company is contained under “Risk Factors” in the Company’s annual report on Form 20-F for the fiscal year ended December 31, 2025, filed with the U.S. Securities and Exchange Commission.

Company Contact:
QTREX Quantum
Email: info@q-trex.com
Phone: +972-9-9664485

Investor Relations Contact:
Arx Investor Relations
North American Equities Desk
Email: QTREX@arxhq.com

FAQ

What milestone did QTREX Quantum (Nasdaq: QTEX) announce on June 18, 2026?

QTREX announced it has produced a cryogenic chip carrier using its single-build AME process. According to QTREX, this extends its Additively Manufactured Electronics platform into the processor-interface layer of quantum hardware, integrating carrier and interconnect functions in one monolithic architecture.

How does QTREX’s new cryogenic chip carrier support quantum processors?

The carrier supports the quantum processor and manages signal fan-out between the processor interface and cryogenic I/O stack. According to QTREX, it targets higher channel counts, denser routing, stronger shielding, lower thermal load and controlled signal integrity in constrained cryogenic environments.

What is unique about QTREX’s single-build AME architecture for quantum chip carriers?

QTREX’s single-build AME integrates carrier and interconnect into one monolithic structure instead of multiple connectors. According to QTREX, conductive pathways, dielectrics, shielding and direct interconnect transitions are produced together, aiming to simplify signal paths and reduce potential failure points.

How could QTREX’s cryogenic chip carrier impact high-channel-count quantum processors?

QTREX believes its architecture can open a new integration path for high-channel-count quantum processors. According to QTREX, integrated shielding and 3D routing geometries are intended to support routing densities that conventional connector-based architectures are not designed to handle effectively.

What are QTREX’s next steps for its cryogenic chip carrier platform?

QTREX expects the next phase to focus on customer-specific cryogenic chip carrier designs. According to QTREX, these will be tailored to each processor architecture, chip design and system-level requirement, following interest from multiple quantum hardware companies and strategic technology customers.

Where will QTREX showcase its cryogenic chip carrier around Quantum.Tech World 2026?

QTREX plans to present the chip carrier sample in private meetings in Boston around Quantum.Tech World 2026. According to QTREX, interested industry participants and partners can request meetings via email to discuss sample viewing and customer-specific processor-interface designs.